NATIONAL INSTITUTE OF TECHNOLOGY SRINAGAR NAME OF ...

1

NATIONAL INSTITUTE OF TECHNOLOGY SRINAGAR

NAME OF DEPARTMENT : Metallurgical & Materials Engineering

1. Subject Code: MME-301 Course Title: Introduction to Metallurgy and Materials

2. Contact Hours: L: 3; T: 1; P: 0

3. Examination Duration (Hrs): Theory: Practical:

4. Relative Weightage: M-I : M-II: ASM: ME: PRE:

5. Credits: 3rd

Semester:

Autumn Spring 6. Objective:

To familiarize the students with the fundamentals and other aspects of various metallurgical

processes, engineering materials and their properties, etc.

7. Details of the Course:

S. No. Particulars Contact

Hours

1.

2.

3.

4.

5.

6.

7.

An introduction to Metallurgy and Classification of Metallurgical

Processes.

Classification of Engineering Materials based on Engineering

properties. A general discussion on other engineering materials

plastics, rubber, polymers, ceramics, refractories, glasses, composites

etc.

Introduction of Nano-technology; its importance and applications.

A brief discussion on important ferrous and non-ferrous materials and

their production processes (flow sheets giving important parameters).

General introduction to phase rule and phase diagrams (Binary

systems). An overview of iron carbon equilibrium diagram and the

critical phenomenon. Brief discussion on plastic deformation & Strain

Hardening.

Bonding in solids, crystal structure & imperfections. Plastic

deformation in single crystals.

Single crystals, polycrystalline materials and factors affecting their

mechanical properties. Yield strength, tensile strength and rupture

strength. Ductility and malleability, toughness and hardness of

materials.

04

08

03

07

08

07

05

Total 42

- - - -

- - - -

- - - - - -

0 4

2

8. Suggested Books:

S. No. Name of Book Author(s) Publisher Year of

Publications

1.

2.

3.

4.

5.

6.

7.

8.

9.

Principles of Extractive Metallurgy

Materials Science and Engineering

Elements of Materials Science

Engineering Materials Science

Structure and Properties of Materials

Material Science

Engineering Materials II : An

introduction to microstructures ,

processing & design

Material Science

Principles of Material Science and

Engineering

J. Newton

V. Raghavan

Van Vlack

Richards

Wulff Series

R. S. Khurmi

& R. S. Sedha

Ashby, M.F., &

D.R.M. Jones

Callister

Smith

J. Wiley

PHI

Addison

Wesley

Wadsworth

Pub. Co.

John Wiley

(New York)

S. Chand

Pergamon Press

John Wiley

Mc Graw Hill

1959

2008

1998

1961

1966

2005

2006

2008

1990

3



1. Subject Code: CHM-03 Course Title: Metallurgical and Instrumental Analysis



4. Relative Weightage: M-I: M-II: ASM: ME: PRE:

5. Credits: 3rd

Semester:

Autumn Spring

6. Objective:

To acquire knowledge and become familiar with the various metallurgical analysis techniques

and the instruments involved therein.



Hours

1

2.

3.

4.

Principles of Volumetric, Gravimetric and Fire assay methods.

Electrogravimetry, potentiometry, polarography, colorimetry and

conductometry.

Absorptimetry, Emission spectrophotometry, Atomic Absorption

Spectrophotometry, flame photometry, colorimetry and X-ray

fluoresence.

Determination of gases in metal. Introduction to Thermal Analysis

(DTA, TMA, TGA, DSC, etc.) Chromatography, Radio-chemical

analytical methods.

Applications of the above analytical methods to the assessment and

evaluation of alloys, ores, slags, ceramics, glass and refractories.

10

10

12

10

Total 42

- - - -

- - - - - - - - - -

0 3

4

8. Suggested Books:

S. No. Name of the Book Author(s) Publisher Year of

Publications

1.

2.

3.

4.

5.

6.

7.

Instrumental Methods of Analysis

Standard Methods of Chemical

Analysis, Vol: III A

Instrumental methods of Chemical

Analysis

Metallurgical Analysis

Problems in Quantitative Analysis

A brief introduction to modern

chemical Analysis

Quantitative chemical Analysis 5th

ed.

Williard

H.H., Merritt

L.L., and

Dean J.A.

Welcher F.J.

Ewing G.W.

Jain and

Agarwal,

A. Musakin,

D.G.Peters,

J.H.Hayes

and G.M.

Hieftje

Vogel

Wadsworth

Van

Nostrand

McGraw-

Hill

Khanna

Publishers,

New Delhi

Mir

Saunders

Longman,

Harlow

1981

1962

1985

1985

1984

1976

1989

5



1. Subject Code: CHM-03P Course Title: Laboratory Practice in Metallurgical

and Instrumental Analysis



4. Relative Weightage: MSLE: ESLE:

5. Credits: 3rd

Semester:

Autumn Spring

6. Objective:

To acquire knowledge of equipments and become familiar with the basic analytical methods.

7. List of experiments:

S. No. Experiments

1.

2.

3.

4.

5.

6.

Determination of Cu2+

ions iodometrically

Gravimetric estimation of aluminum

Determination of Iron (III)

Determination of barium as barium sulphate.

Distribution coefficient of iodine between water & CCl4

Determination of acid value of oil.

- - - -

- -

5

5

55

- -

0 1

6



1. Subject Code: MTH-308 Course Title: Mathematics-III




5. Credits: 3rd

Semester:

Autumn Spring

6. Objective:

To understand and familiarize with the algebra of matrices and various aspects of statistics

and probability.



Hours

1

2.

MATRICES:

Definitions and algebra of matrices. Transverse of a matrix Symmetric,

skew-symmetric, Hermitian, and skew-Hermitian matrices inverse

matrix, orthogonal and unitary matrices, Solution of simultaneous

equations by matrix method. Triangular matrices, Rank of a matrix,

equivalent matrices, elementary transformations, normal form, and

eigen vectors of a matrix, Caley-Hamilton theorem. Quadratic forms.

STATISTICS AND PROBABILITY

Measures of central tendency and Measures of variations (Dispersions),

Moments, Measures of Skew-ness and kurtosis. Random experiment,

sample space, events, classical, statistical and axiomatic definitions of

probability. Statements and proof of theorems on addition and

multiplication of probabilities. Simple problems. Baye’s Theorem on

conditional probability. Random variable, derivation of formula for

mean, variance and moments of random variables for discrete and

continuous cases. Laws of expectation, Binomial, Poisson and normal

distributions, Beta and Gamma distribution. T-distribution, F-

distribution, Chi-square distribution and their applications. Method of

least squares, fitting a straight line and parabola of degree ‘p’.

Regression and correlation Multiple and partial correlation.

18

24

Total 42

- - - -

- - - - - - - - - -

0 4

7

8. Suggested Books:

S. No. Name of the Book Author(s) Publisher Year of Publications

1.

2.

3.

Fundamentals of Mathematical

Statistics

Statistical Theory and

Methodology in Science & Engg.

Introduction to Mathematical

Statistics, 3rd

Ed.

S.C

Gupta and

V.K

Kapoor

Brown lee

R.E.

Walpole

Sultan

Chand and

Sons,

N. Delhi

John

Wiley and

Sons

Prentice

Hall

2000

1965

1987

8



1. Subject Code: CIV-304 Course Title: Geology and Mineralogy




5. Credits: 3rd

Semester: Autumn Spring

6. Objective:

To impart the basic understanding of the formation of rocks and minerals and to expose the students to the basic erosional and depositional processes.


S. No.

Particulars Contact Hrs.

1.

2.

Physical Geology:

Introduction to the science of geology.

Crust of earth and its composition.

Minerals and Rocks.

Weathering of Rocks; Erosion, transportation and deposition by

wind, Water and ice.

Introduction to geological structures.

Mineralogy:

Rock forming minerals and ore forming minerals. Processes of

mineral formation. Physical properties of minerals.

Introduction to ore minerals. Principle ore minerals of Aluminum,

Copper, Lead, Zinc, Antimony, Nickel, Tin, Chromium, Magnesium

and Iron, their important properties, mode of formation, mode of

occurrence, uses and distribution in India.

Study of Refractory minerals, coal and petroleum.

3

3

3

6

3

4

10

4

Total 36

- - - -

- - - - - - - - - -

0 3

9

8. Suggested Books:

S. No. Name of

Book/Author/Publisher

Author(s) Publisher Year of

Publications

1.

2.

3.

4.

5.

6.

7.

Principles of Engineering

Geology,

Engineering Geology

Structural Geology

Geology for

Engineers

Experiments in

Engineering Geology

Textbook of Engineering

Geology

Geology for Civil Engineers

Bangar, K.M,

Parbin Singh

Billings, M.P.

Blyth, F.G.H

and de Freitas,

M.H.

Gokhale,

KVG.K and

Rao, D.M.

Kesavulu, C.

McLean and

Gribble

Standard

Publishers

Distributors,

New Delhi.

Katson

Publishers

New Delhi.

Prentice‐Hall

India, New

Delhi.

ELBS,

London.

Tata‐ McGraw Hill,

New

Delhi.

Macmillan,

India Ltd.

New Delhi

Spon Press,

Taylor

&Francis

Group,

London

1995

2009

1974

1974

1981

1993

1999

10



1. Subject Code: CIV-304P Course Title: Laboratory Practice in Geology and

Mineralogy

2. Contact Hours: L: 0; T: 0; P: 2/2



5. Credits: 3rd

Semester:

Autumn Spring

6. Objectives:

To impart the basic skills for determination of characteristics of rocks and minerals.

7. List of Experiments:

S. No. Experiments

1.

2.

3.

4.

5.

The study of physical properties of minerals (form, luster, fracture, cleavage, streak, hardness,

specific gravity, colour etc). 6 h

Determination of specific gravity by:

a. Jolly’s balance

b. The beam balance

c. The walkers steel yard balance. 6 h

Study of rocks and their characteristics (Igneous - Granite & Basalt; Sedimentary- Sandstone

and Limestone; and Metamorphic - Quartzite, Marble, slate, Gneiss and Schist). 4 h

Study and sketching of various types of geological structures. 6 h

Determination of dip and strike with a clinometers compass. 6 h

- - - -

0 1

- - - -

11



1. Subject Code: MEC-302 Course Title: Mechanics of Solids




5. Credits: 3rd

Semester:

Autumn Spring

6. Objective:

To familiarize with the fundamental principles of stress and strain, mechanical properties and

to understand the response of members to flexural loads etc.


S.No. Particulars

Contact

Hours

1.

2.

3.

4.

Analysis of Stresses and Strains - Two dimensional state of stress and

strain, Principle stresses/strains and principle planes/ axes. The stress

and strain circles. Measurement of techniques as applied to stresses,

etc. Poisson’s ratio, Hooke’s Law, Surface and Volumetric strains,

Elastic constants and their relationships. Mechanical Properties:

Stress - Strain diagrams.

Elastic and plastic behavior under multi-axial stresses. Mechanical

properties at high and low temperatures under static and cyclic

stresses. Members in Bi-Axial State of Stresses: Stresses and strain in

thin cylindrical and spherical shells subjected to internal pressures.

Members subject to Flexural Loads: Theory of simple bending.

Distribution of normal and shear stresses, principle stresses. Built-up

and composite beams. Bending movements, slope and deflection.

Various methods of deflection. Symmetrical and un-symmetrical

bending. Fracture Mechanics. Columns: Short struts subjected to axial

and multiaxial loads. Euler’s theorem. Critical and Eccentric loading.

09

14

09

10

Total 42

- - - -

- - - - - - - - - -

0 3

12

8. Suggested Books:

S No. Name of Book Author(s) Publisher Year of

Publication

1.

2.

3.

Mechanics of Materials

Mechanics of Materials

Engineering Mechanics

Timoshenko &

Gere

E.P. Popov

Irwing and

Shames

Nelson Thornes

Prentice - Hall

Prentice Hall

2003

1959

2000

13



1. Subject Code: ELE-305 Course Title: Electrical Technology




5. Credits: 3rd

Semester:

Autumn Spring

6. Objective:

To obtain sound knowledge in the basic concepts of electrical technology.

7. Details of the course:


Hours

1.

2.

3.

Electric circuit laws and D.G. Circuits- super position principle.

Thevenin’s theorem.

Maximum power transfer theorem. A.C. Circuits, Basic Definitions.

Solution of R-L-G circuit, three phase balanced star and delta connection

circuits.

D.C generators and motors, and their characteristics, three phase

alternators, synchronous and induction motors.

10

19

13

Total 42

8. Suggested Books:


Publications

1.

2.

3.

4.

Principles of Elect. Engineering

Basic Elect. Engineering

Electrical Machines

Basic Circuit Analysis

Vincent Deltoro

Fitzgerauld

Nagrath/Kothari

Schaum Series.

Prentice-Hall

McGraw- Hill

Tata McGraw- Hill

McGraw- Hill

1972

1981

2006

1992

- - - -

- - - - - - - - - -

0 3

14



1. Subject Code: ELE-304P Course Title: Laboratory Practice in Electrical

Technology




5. Credits: 3rd

Semester:

Autumn Spring

6. Objective:

To provide practical knowledge about the working of various relevant laboratory equipments.

7. List of experiments:

S. No. Experiments

1.

2.

3.

4.

5.

6.

7.

8.

9.

Verification of K.V.I

Verification of K.C.I

Verification of Supper position theorem.

Verification of Thevinin’s theorem

Verification of Max. Power Transfer theorem

Delta-star Transformation

Obtaining resonance in RLC circuits

Measurement of Power and Power factor 3 load

Constructional details of a single phase transformer

- - - -

0 1

- -

5

5

55

- -

15



1. Subject Code: MME-302 Course Title: Electrical Engg. Materials




5. Credits: 3rd


6. Objective:

To familiarize with the basic principles related to the physics of materials relevant to

electrical, magnetic and optical properties.



Hours

1.

2.

3.

Introduction to materials-classification, properties and structure.

Crystalline and Non-crystalline solids. Crystallographic directions and

planes. Density computations. Some important characterization

techniques. Imperfections in solids. Mechanical properties of

materials. Phase transformation in alloys and some important steels.

Electrical properties of materials. Some important resistor alloys.

Dielectric materials and their electrical properties. Semiconductors,

their properties and applications. Novel electrical characteristics-

Ferroelectricity and piezoelectricity.

Magnetic properties of solids - types of magnetism, magnetic domain.

Soft magnetic materials and hard magnetic materials, their properties

and applications. The Influence of Temperature on Magnetic

Behavior. Superconductivity.

14

20

08

Total 42

- - - -

- - - - - - - - - -

0 3

16

8. Suggested Books:


Publications

1.

2.

3.

4.

5.

6.

Introduction to solid state

Physics

Solid State Physics

Meta

Physical Metallurgy

Principles

Theoretical Structural

Metallurgy

Electricity and Magnetism

The Structure and

Properties of Materials

Vol.4

C. Kittel

Dekker

Reedhill

Cottrell

H.E. Duckworth

Rose, Sheppard,

Wulff.

Wiley

Prentice Hall

Affiliated East

West Press Pvt

Ltd.

Arnold

Holt, Rinehart ,

Winston

John Wiley

(New York)

1986

1965

2008

1962

1960

1966

17



1. Subject Code: MME-303 Course Title: Electronics Engineering Materials




5. Credits: 3rd

Semester:

Autumn Spring

6. Objective:

To familiarize with the basic principles related to the physics of materials relevant to

electrical, electronic, magnetic and optical properties.



Hours

1.

2.

3.

4.

5.

6.

Crystal structure: crystalline state, Bravais lattices, Miller indices, reciprocal

lattice. Common crystal structures. Interference phenomenon. Bragg’s

diffraction. Crystal imperfections.

Free electron theory, conduction in Metal and alloys conductor, resistors.

Growth of single crystal, zone refining technique.

Semiconductors: their properties and applications.

Magnetism: Magnetic Properties of materials, diamagnetism, paramagnetism,

ferromagnetism, black wall, domain dimensions. Anti-ferromagnetism

ferrimagnetism. Ferrites, Magnetic Materials: Fe, Si, Ni, Co. Hard magnetic

materials.

Dielectric materials, electric & optical properties, polarization in static and

alternating field, piezoelectricity, polarizability and dielectric constant, optical

transition in solids, absorption and emission of radiation, dielectrics,

capacitors, inductors.

Superconductivity and Superconductors.

06

06

03

03

10

14

Total 42

- - - -

- - - - - - - - - -

0 3

18

8. Suggested Books:

S. No. Name of the Book Author(s) Publisher Year of Publications

1.

2.

3.

4.

5.

6.

7.

Introduction to solid state Physics

Solid State Physics

Meta

Physical Metallurgy Principles

Theoretical Structural Metallurgy

Electricity & Magnetism

E

The Structure & Properties of

Materials, Vol IV: Electronic

Properties

Material Science

C. Kittel

Dekker

Reedhill

Cottrell

H.E.

Duckworth

Rose R M,

Shephard

L A, Wulff

J

Callister

Wiley

Prentice

Hall

Affiliated

E-W

Press Pvt

Ltd.

Arnold

Holt,

Rinehart,

Winston

Wiley

Eastern

Ltd.

Wiley

1986

1965

2008

1962

1960

1987

2008

19



1. Subject Code: MME-401 Course Title: Thermodynamics of Materials




5. Credits: 4th

Semester:

Autumn Spring

6. Objective:

To comprehend the laws of thermodynamics and their applications to metallurgical systems.



Hours

1.

2.

3.

Introduction: Basic concepts, postulates, and basic problems of

thermodynamics. Reversible and irreversible reactions. First law of

thermodynamics: Enthalpy. Heat capacity.

Thermochemistry. Hess’s law. Flame temperature. Second law of

Thermodynamics: Entropy and its change, Carnot cycle. Free energy

and Gibb’s Helmholtz equation. Third law. Fugacity, activity and

equilibrium constant. Free energy calculations. Activity measurement.

Ellingham diagram. Richardson diagram. Solutions: Introduction – Le

Chatelier principle. Partial molal quantities. Gibb’s Duhem equation.

Ideal, non-ideal and dilute solutions. Raoult’s and Henry’s laws.

Alternative/standard states. Sievert’s law, mixing excess functions.

Regular solutions. Classius-clapeyron equation. Phase rule: liquid-

vapour, solid-liquid, solid-vapour equilibria, and Trouton's rule. The

thermodynamics of electro-chemical reversible cells. Introduction to

statistical thermodynamics. Thermodynamics of inter phases.

10

20

12

Total 42

- - - -

- - - - - - - - - -

0 5

20

8. Suggested Books:


Publications

1.

2.

3.

4.

5.

6.

7.

Physical Chemistry

of Metals

Physical Chemistry

of Iron and Steel

making

Introduction to

Metallurgical

Thermodynamics

Problems in

Metallurgical

Thermodynamics &

Kinetics

Principles of

Extractive

Metallurgy

Phy. Chemistry of

Met. Processes

Text Book of

Materials and

Metallurgical

Thermodynamics

Darken & Gurry

C. Bodsworth

David R Gaskell

G.S Upadhyay

& R.K Dube

Rosenquist

A.K. Biswas and

G.R. Bashforth

Ahindra Ghosh

CBS

English Longman’s

Books Society &

Longman’s Green &

Company

Mc Graw-Hill

Pergamon Press

McGraw-Hill

Asia Publishing

House, New Delhi

PHI

2002

1972

1995

1985

1983

2005

2003

21


NAME OF DEPARTMENT : Metallurgical & Materials Engineering 1. Subject Code: MME-402 Course Title: Introduction to Manufacturing

Processes




5. Credits: 4th

Semester:

Autumn Spring

6. Objective:

To provide the fundamentals of knowledge about various manufacturing processes.


S. No. Particulars

Contact

Hours

1.

2.

3.

4.

5.

6.

Historical perspective of manufacturing processes, classification

of manufacturing processes, their advantages and disadvantages.

Important methods of each manufacturing process

Machining: Basic principles of lathe machine & operations

performed on it. Basic description of machines & operations of

shaper-planer, drilling, milling, grinding. Unconventional

machining processes , Machine tools

Casting: pattern & allowances. Molding sands & its desirable

properties. Mould making with the use of a core. Gating system.

Casting defects & remedies. Cupola furnace. Die-casting & its

uses.

Metal forming: Basic metal forming operations & uses of such

as-forging, rolling, wire & tube drawing/making & extrusion, &

its products/applications, press work & die & punch assembly,

cutting & forming, its application. Hot working vs Cold working. Powder metallurgy: powder metallurgy process & its

applications, plastic-products manufacturing, galvanizing &

electroplating. Joining methods: Fusion welding processes, solid phase welding,

gas welding, arc welding, TIG welding, MIG welding, Submerged

arc welding, electro slag, welding, electron beam welding, laser

welding, cold pressure welding, ultrasonic welding, friction

08

06

06

06

08

- -

3

-

- - - - - - - - - -

0 4

22

7.

welding and explosive welding; brazing and soldering; principles

involved, process details and equipment used for above welding

processes.

Plastic part manufacturing methods, injection moulding, blow

moulding, compression moulding and transfer moulding.Thermo

forming, rapid proto typing etc.

08

Total 42

8. Suggested Books:

S. No. Name of the Books/Publisher Author Publisher Year of

Publications

1.

2.

3.

4.

5.

6.

7.

Forging & forming metals

Theory of metal forming & metal

cutting

Mechanical Metallurgy

Manufacturing Processes for

Engg. materials

Manufacturing Proceeses

Process & Materials Of

Manufacturing

Elements of Workshop

Technology; vol. I & II

S.E. Rusinoff

S.K. Sinha

S.C. Prasad

G.E. Dieter

Kalpakjian &

Schmid

B.H Amstead,

Ostwald,

Begeman

Roy A

Lindberg

Hajra ,

Chaudhary

D.B.

Taraporevala

Dhanpat Rai

McGraw Hill

Pearson

Education

John Wiley

& Sons

PHI

Media

Promoters &

Publishers.

1969

1995

1988

2001

1976

1977

2016

23



1. Subject Code: MTH-404 Course Title: Numerical Methods and Computer Programming




5. Credits: 4th

Semester:

Autumn Spring

6. Objective:

To learn the principles of numerical solutions of equations and computer programming.



Hours

1.

2.

3.

4.

5.

NUMERICAL METHODS: Finite Differences: Difference table and its usage. The difference

operators ▲, ▼ and the operator E.

Interpolation: Interpolation with equal intervals. Newton’s advancing

difference formula. Newton’s backward differences formula.

Interpolation with unequal intervals. Newton’s divided differences

formula. Lagrange’s interpolation formula. Spline functions.

Central Differences: The central difference operator $ and the

averaging operator µ, Relations between these operators. Gauss forward

and backward interpolation formula, Sterling, Bessel’s Laplace and

Everetts formulae.

Numerical Solution of Algebraic and Transcedental Equations. Graphic

Method, Regula - Falsi Method, Balzano’s Bisection Method, Newton -

Raphson Method and its geometrical significance.

Numerical Integration: Numerical integration. General Quadrature

Formula, Trapezoidal rule. Simpson’s one-third and three-eight rules,

Weddells’ rule, Hordy’s rule.

02

05

06

06

06

- - - -

- - - - - - - - - -

0 4

24

6.

7.

Numerical solution of ordinary differential equations. Numerical

solution of ordinary differential equations, Picard’s method, Taylors

series methods, Euler’s method, Runge-Kutta method.

COMPUTER PROGRAMMING:

The application of Computer, Digital computer organization. Flow

charts and decision tables.

FORTRAN programming preliminaries. Fortran integer and real

constants. Fortran variables and the names of variables. Fortran

operations and expressions for addition, subtraction, multiplication,

division and exponentiation.

Mathematical functions. Arithmetic statements. Input-output statements.

Format free statements. Simple computer programmes. Transfer of

control: Control statements. The GoTo statements. The arithmetic IF

statement. The logical IF statement. Relational operators. Elementary

format specifications. Format description for PUNCH statement. The

Do statement. Examples.

C++

programming, simulation and modelling, Computing methods in

Engineering problem solving in general and Metallurgical Engg.

Problem in particular, working principal of genetic algorithm, artificial

neural networking, fuzzy logic techniques, soft computing technique

like fuzzy regression, fuzzy neuron nets etc.

04

07

06

Total 42

8. Suggested Books:

S. No. Name of the Books Author(s) Publisher Year of

Publications

1.

2.

3.

4.

Numerical Analysis for Scientists and

Engg.

Mathematical numerical analysis

Numerical methods, software and

analysis

Numerical Methods in Science and

Engg.

MK Jain

SC

Scarborough.

John R Rice

S

Rajasekaran

New Age

International

(P) Ltd.

Oxford &

IBH

Publishing

Co.

McGraw-Hill

S Chand

1997

1966

1985

2003

25



1. Subject Code: MTH-405P Course Title: Laboratory Practice in Numerical

Methods and Computer programming




5. Credits: 4th

Semester:

Autumn Spring

6. Objective:

To provide basic knowledge about the problem formulation and writing of computer

programs to solve the same.


S. No. Particulars

1.

2.

3.

4.

5.

6.

7.

Given a set of N numbers A1, A2, A3……... AN, to write a program and arrange them

in an ascending sequence.

To draw a flow chart and to write a Computer Program to compute the Scalar

Product of two vectors X and Y given by Scalar Product XiYi where the quantities

Xi,Yi (i=1, 2,...15) are known.

To write a Program and then compute the roots of the quadratic equation Ax2 + Bx

+C=o for different values of A, B and C.

The formula for computing standard deviation( ) of normal distribution is where xi

represents an individual number of group numbers, x- the arithmetic mean of the

group of numbers, and N the size of group of numbers. Draw a flow chart and

compute the standard deviation of a given set of 500 numbers xi, x2 ......, x500.

Program to find a real rost of F(x) =0 by Newton Raphson Method.

Program to evaluate the integral of F(x) between limits A and B using Simpsone and

Trapezoidal rule

Program to solve an ordinary diffrential equation dy / dx = f (x,y) using Enler

method.

0 1

- -

- -

5

5

55

- -

- -

26

8.

9.

Program to compute the solution of dy / dx = f(x,y), y(xo) = yo using the classical

Runge - Kutta Fourth order method.

To write a program to compute and print the values of the safe loading S for

R = 25(25)250 where

S = 17,000 – 0.485 R2 for R < 120

18,000/1 + R2/18,000 for R >/ 120

/

27



1. Subject Code: MME-403 Course Title: Non-Destructive Testing and Evaluation

2. Contact Hours: L: 3 ; T: 1; P: 0



5. Credits: 4th

Semester:

Autumn Spring

6. Objective :

To familiarize with the basic methods of Non- Destructive Testing technique,

principles, test procedures and equipment involved therein.


S.

No Particulars

Contact

Hours

1.

2.

3.

4.

Importance of testing in the quality control of materials/product.

Significance of N.D. Testing. Principle , procedure and equipment for

conventional methods of NDT such as-

Liquid penetrant, Magnetic particle, Eddy current, radiography,

Ultrasonic and acoustic emission, optical and acoustic hollo-graphy

and thermo-graphy, In-situ metallographic examination.

Comparison and selection of NDT methods.

Advantages, limitations, applications of each N.D. Testing methods.

05

22

08

07

Total 42

- - - -

- - - - - -

0 - - - -

0 4

28

8. Suggested Books:

S.

No.

Name of the Books Author(s) Publisher Year of

Publications

1.

2.

3.

4.

Non-Destructive Evaluation

and Quality Control

Non-Destructive Testing

Non-Destructive Testing

Non Destructive Testing

ASM Metals

Handbook

Mc Gonnagle, W T

Louis Cartz,

Barry Hull and

Vernon John

American Society

of Metals, Metals

Park, Ohio

McGraw Hill

Book Co

ASM

International,

Metals Park Ohio

ELBS / Macmillan

2001

1988

1995

1989

\

29


NAME OF DEPARTMENT : Metallurgical & Materials Engineering 1. Subject Code: MEC-412 Course Title: Heat Transfer and Fluid Flow




5. Credits: 4th

Semester:

Autumn Spring

6. Objective:

To understand the basic principles of heat transfer and fluid flow.


S. No. Particulars

Contact

Hours

1.

2.

3.

Modes and Laws of heat transfer. CONDUCTION: Steady State and

unsteady state. Heat flow through composite walls. Heating and

cooling of plates, cylinders and spheres. CONVECTION: Free and

forced convection. Reynolds, Crasshoofs, Nusselt and Station

numbers.

RADIATION: Emissivity, absorptivity, reflectivity and

transmissivity. Simple Heat transfer between black and gray

surfaces. Re-radiating surfaces. Heat losses from furnaces.

Combined effects of conduction, convection and radiation. Steady

and unsteady heat flow in some metallurgical processes, e.g

melting, solidification, heating/cooling of ingots and billets, etc.

FLUID FLOW: Viscosity and Newton’s law of viscosity. Newtonian

and non-Newtonian fluids. Conservation of mass and continuity

equation. Energy of fluids. Euler’s and Bernoullis equations. Loss

of energy due to friction. Flow through pipes. Laminar and

Turbulent Flow, Reynold’s number. Compressed air and air blasts.

Energy used for compression. Compressor and blower efficiency

characteristics.

10

16

16

Total 42

- - - -

- - - - - - - - - -

0 3

30

8. Suggested Books:


Publications

1.

2.

3.

4.

5.

Engineering Heat Transfer

A Text on Heat transfer

Heat transfer

Heat transfer

Fluid Mechanics

Gupta &

Prakash

S.P.

Sukjhatme

Holman

Domkundwar

Khurmi

Nem Chand

& Bros.

Universities

Press

(India) Pvt.

Ltd

McGraw-

Hill

Dhanpat

Rai

Publishing

Company

(P) Ltd.

S. Chand &

company

1976

2005

1976

2005

1987

31


NAME OF DEPARTMENT : Metallurgical & Materials Engineering 1. Subject Code: ECE-405 Course Title: Electronics and Metallurgical

Industrial Instrumentation




5. Credits: 4th

Semester:

Autumn Spring

6. Objective:

To gain knowledge about the basics of electronics, and to familiarize with the working

principles of metallurgical industrial electronic instruments.


S. No. Particulars

Contact

Hours

1.

2.

3.

4.

Construction, symbol and characteristics of semiconductors diodes,

transistors and silicon-controlled rectifiers. Rectifiers and invertors.

Motor control.

Induction and dielectric heating. Electric arc furnaces and their

accessories. Ultrasonic waves and their applications. Pulse, digital

and switching circuits and systems. Transducers.

Measurements of current, voltage, power and energy. Cathode-ray

oscilloscope and its applications.

Temperature control, gas flow and fluid flow controls, PID, load

cells, and strain gauge etc.

13

15

10

04

Total 42

- - - -

- - - - - - - - - -

0 2

32

8. Suggested Books:


Publications

1.

2.

Pulse Digital and Switching Wave Form

Integrated Electronics

Millman

& Taub.

Millman

& Halkias.

Tata

McGraw -

Hill

McGraw-

Hill

2007

1972

33



1. Subject Code: ECE-406P Course Title: Laboratory Practice in Electronics and

Metallurgical Industrial Instrumentation



4. Relative Weightage: MSLE: ELSE:

5. Credits: 4th

Semester:

Autumn Spring

6. Objective:

To become familiar with the working of relevant electronic devices.


S. No. Experiments

1.

2.

3.

4.

5.

6.

7.

8.

Diode & zener diode characteristics.

Common emitter configuration D.C characteristics and amplifier.

Emitter follower and common basic amplifier.

To assemble a two stage cascaded amplifier and study its performance.

Differential amplifier.

Feedback amplifiers, current series and current shunt.

RC phase shift oscillator.

Basic logic gates.

- - - -

- - - -

0 1

34


NAME OF DEPARTMENT: Metallurgical & Materials Engineering

1. Subject Code: MME-501 Course Title: Kinetics of Materials

2. Contact Hours: L: 4 ; T: 1 ; P: 0



5. Credits: 5th

Semester:

Autumn Spring

6. Objective:

To provide an understanding of the thermodynamic principles and kinetics pertaining to the

metallurgical processes/systems.


S.

No Particulars

Contact

Hours

1.

2.

3.

4.

Brief review of generalized systems, solutions and laws/ postulates.

Statistical thermodynamics, thermodynamics of interfaces. Phase rule,

liquid-vapor, solid-vapour, solid liquid and solid-solid equilibria,

heterogeneous equilibria. Equilibrium and temperature-pressure

diagrams, their applications to various metallurgical systems.

Chemical kinetics and its related laws, theories of reaction rates,

reaction mechanism, kinetics of important metallurgical processes.

Concept of activated state and activated energy. Diffusion in solids,

Fick’s laws and Kirkendal effect. Diffusion in direct/indirect

reduction and agglomeration processes. Kinetics of heterogeneous

metallurgical operations: viz Gas-solid, slag metal, and other such

systems. Kinetics of solid state transformations. Mass transfer in

solid, liquid and gaseous systems.

Total

02

10

08

22

42

- - - -

- - - - - - - - - -

0 5

35

9. Suggested Books:

S.

No.

Name of the Book Author(s) Publisher Year of

Publications

1.

2.

3.

4.

5.

6.

7.

8.

9.

10.

Physical Chemistry of Metals

Thermodynamics of Materials

Thermodynamics

Chemical Kinetics.

Thermodynamics for Chemists

Theory of Rare process

Thermodynamics of Solids

Metallurgical Thermochemistry

Introduction to Chemical

Metallurgy

Chemical Metallurgy

.

Darken and

Gurry

David V

Ragone

Partington

Laidller

Glasstone

Glasstone,

Laidller and

Evring

R.A. Swalin

Kubaschewski

R.A. Parker.

J J Moore

CBS

John Wiley &

Sons, Inc.

London

Constable

Paperback

EWP

Elsevier

Science B.V.

John Wiley

Sons Inc.

Pergamon

Pergamon

press, NY

Heinemann

Ltd.

2002

1995

1987

2008

1988

1975

1966

1993

1978

1990

36



1. Subject Code: MME-501P Course Title: Laboratory Practice in Thermodynamics

& Kinetics of Materials



4. Relative Weightage: MSLE: ESLE :

5. Credits: 5th

Semester:

Autumn Spring

6. Objective :

To familiarize with the conduct of different experimental studies.

7. List of Experiments

S.

No:

Experiments

1.

2.

3.

4.

5.

6.

7.

Determination of Specific Heat by Bomb calorimeter (Adiabatic)

Determination of Specific Calorimetry (Isothermal)

Measurement of Partial Molar Volume

Study of Thermo-Analytical Techniques of Dissociation of Carbonates

To study the calcination of CaCO3 and calculate the percentage

decomposition by varying time and temperature.

To study the effect of time and temperature on the kinetics of roasting

of CuS.

To study the cementation process for extraction of copper from CuSO4

bath with iron.

- -

- - - -

- -

0 1

37



1. Subject Code: MME-502 Course Title: Principles of Metal Extraction and

Refining Processes

2. Contact Hours L: 4 ; T: 1; P: 0



5. Credits: 5th

Semester:

Autumn Spring

6. Objective:

To familiarize with the processing of ores and to extract valuable minerals.


S.

No Particulars

Contact

Hours

1.

2.

3.

Location of principal ore bodies and extracting plants. Indian Mineral

resources and metallurgical industries. Estimated tonnage of metals

produced /imported /exported by India. Purpose of Mineral Dressing,

scope and limitation of available methods. Classification of ores.

Communition units like jaw crusher gyratory, cone crusher, Roll and

impact crusher, attritor and other grinding units, their performance,

applications and limiting reduction ratio. Sizing and classification.

Methods of sizing, both Laboratory and Industrial. Various types of

screens. Classification as a means of sizing. Laws of classification.

01

05

15

Principles of Metallurgical Processes as applied to ores and

concentrates for the extraction of metals: Importance of physico-

chemical processes in metal extraction and refining.

Roasting processes: drying and calcination, oxidizing, sulphatizing,

chlorination, flouri-nation and reducing roasting, Sintering and other

agglomeration processes,

Smelting processes: reducing, oxidizing electro-thermic,

metallothermic and reaction smelting processes,

Refining processes: liquification, fractional re-crystallization,

distillation, oxidation, chlorination, Sulphidizing and carbon refining

processes,

Hydro-metallurgical processes: leaching, refining of leach solutions,

recovery of metals; electrolytic and bacteria processes,

Electro-metallurgical processes: Principles, advances, processes and

- - - -

- - - - - - - - - -

0 5

38

4.

applications of electro- refining, electrolytic cleaning, electro-

polishing, electro-forming, electro-leaching, electro-machining, etc.

Regeneration of electrolytes.

Slags and their functions in extractive Metallurgy. Principles of

working of the equipment used for roasting and agglomeration.

Hearth roasters, flash roasters, fluidized bed roasters, sintering

machines, etc.

21

Over view of the Physico-Chemical principles and processes of metal

extraction.

Production /extraction of heavy metals (Cu, Pb, Zn, Sn, Ni, Cr, Sb,

Co). Light metals (Al, Mg, Ti) and precious metals (Au, Ag, Pt). Rare

metals (W, Mo, Zr, U, Be) and semi-conductor metals (Ge, Si).

Detailed flow sheets for the extraction/production of the above metals

Total 42

8. Suggested Books:

S.

No.


Publications

1.

2.

3.

4.

5.

6.

7.

8.

Powder Metallurgy and

Particulate Materials

Processes

Mineral Processing

Technology

Principles of Mineral

Processing

Elements of ore dressing

Unit operations

Theory of Metallurgical

processes

Non-Ferrous Extractive

Metallurgy

Hydrometallurgy

German R.M

Wills B.A.

Gaudin P.M.,

A.F.Taggart

Meab and Smith

A.Volsky and

E.Surgiovskaya

H.S.Ray &

Abraham

Venkatachalam

Metal powder

industries

federation

Pergamon Press.

Tata McGraw

Hill.

John Wiley

Mc Graw Hill

Mir Publishers

East-West press

Narosa

Publishing

Pergamon press,

NY

2005

1992

1987

1951

1997

1991

2008

1998

39

9.

10.

11.

12.

13.

14.

15.

Introduction to Chemical

Metallurgy

Principles of Extractive

Metallurgy

Extractive Metallurgy

Extractive Metallurgy

Unit Processes in Extractive

Metallurgy

Non-Ferrous Metallurgy

Non Ferrous Production

Metallurgy

R.H. Parker

Terkel

Rosenqvist

J.D.Ghilchrist

J. Newton

Pehlke R D

W.H.Dennis

J.L. Bray

Mc Graw Hill

Mc Graw Hill

Willey

Willey

East American

Elsevier

Publishing Co.

Sir Issac Pitman

& Sons Ltd

John Wiley &

Sons

1978

1983

1989

1959

1993

1980

1985

40



1. Subject Code: MME-502P Course Title: Laboratory Practice in

Mineral Processing

2. Contact Hours: L:0 ; T: 0; P: 4



5. Credits: 5th

Semester:

Autumn Spring

6. Objective:

To provide understanding of the basic construction, and principles of working different

mineral processing equipments.


S.No: Experiments

1.

2.

3.

4.

5.

6.

7.

8.

9.

10.

11.

12.

13.

To study the parts of a Jaw Crusher and to operate it using different ore materials

and various gape settings, and determine the reduction ratios.

To study the size reduction of an ore by a roll crusher using different roll settings.

Use a laboratory ball mill to reduce a given crushed ore to a - 200 µm size fraction

using different milling times and changing the weight of the grinding medium. Make

energy calculations. Compare the energy efficiency of attritor with ball mill.

To perform Sieve Analysis on a given dry milled Ore for 1/2, 1 and 2 hrs and to

calculate i) percentage loss in screening, ii) the average size of particles and iii) plot

various sizing curves.

To study the effect of any one of the following grinding variables on the performance

of the ball mill or rod mill; i) Ball load or rod load ii) time of grinding.

Conduct the Classification of a mill product using

a) Spiral Classifier b) A Cyclone.

Concentrate a given Sulphide Ore (Chalcopyrite, Sphalarite, Galena) by Froth

Flotation and list the reagents used.

Concentrate a given Ore using: a) Shaking Tables b) Magnetic Separator, and

c) Jigs.

Study of a) Hammer mill, and b) Impact mill.

Study the working of a) Screens, and b) Grilles

Study of a Thickener. Dewatering a given slurry by thickening. Determination of

Fines carried by thickener overflow.

Filtering a given slurry under normal gravity and using Vaccum Filteration.

Heavy media separation of Coal

- - - -

- - - -

0 2

41



1. Subject Code: MME-503 Course Title: Material Characterization




5. Credits: 5th

Semester:

Autumn Spring

6. Objective:

To understand the basic principles of the techniques used for the study of metal samples.


S.

No Particulars

Contact

Hours

1.

2.

3.

4.

Macro and Micro examination of meterials, principle of a

Metallurgical microscope, microscopic objectives, chromatic and

spherical abrasion, different types of objectives.

Properties of objectives. Magnifying power, Numerical aperture,

resolving power, curvature of field and vertical resolution. Oil

immersion objectives. Eyepieces- Negative, amplifying eyepieces,

measuring and reticle type; low reflection coating. Types of

Microscopes. Illuminating source, light collimators, cooling cells,

light filters, diaphragms. Vertical illuminators, bright field and dark

field illumination, prism and plan glass reflector, calcite prism,

oblique illumination, conical stop illumination, critical Kochler

illumination method, principles and techniques of photomicrography.

Microscopy and Photomicrography with ultraviolet light. Microscopy

with polarized light, principle of polarized light microscopy,

equipment and technique. Principles of phase contrast microscopy

and its application. Interferometry, principles and equipment details,

Use and techniques of structure of metals. Maintenance and care of

optical parts. Metallography: Examination of samples by low and

high power microscopy. Preparation of metallic samples for

microscopic and Microscopic examination. Etching of samples for

metallographic examinations (Micro and Macro) Quantitative

Microscopy:- Estimation of grain size, size distribution of inclusions

from measurements on a two dimensional section, Image analysis

through computers.

03

10

08

06 X-Ray production. Characteristics of X-Rays. X-Ray diffraction.

Diffraction theory and Techniques -Laue, Powder and rotating crystal

- - - -

- - - - - -

0 - - - -

0 4

42

5.

6.

7.

8.

techniques. Intensity calculations and structure determination.

Electron Microscopy and its applications to Metallurgical studies.

Techniques of specimen preparation for electron microscopy.

Principles of Electron diffraction. Electron Emission phenomenon.

Field ion Microscopy,

Introduction to techniques such as – Auger Electron spectroscopy,

scanning tunneling microscopy, Atomic force microscopy.

Electron Probe micro analysis etc. Detailed study of Radiographic

techniques.

04

04

04

03

Total 42

8. Suggested Books:

S.

No.


Publications

1.

2.

3.

4.

5.

6.

7.

8.

The principles of

Metallographic practice

Practical Metallography

Structural Metallurgy

Modern Microscopy

Modern Metallographic

Techniques and their

Applications

Metallography: Principle and

practice

ASM Handbook, Volume 10,

Materials Characterisation

Elements of X-ray Diffraction

Kehl

Greeves and

Wrighton

Barreet

V.E. Cosslett

Phillips V A

Vander Voort

Whan R E (Ed)

Cullity B D

Mc Graw Hill

D.Van Nostrand

Co.

PHI/ Mc Graw

Hill

Mc Graw Hill

Wiley Eastern

Mc Graw Hill

ASM

international

Prentice Hall, Inc

1949

1957

1979

1966

1971

1984

1986

2001

43

2.

3.

Optical Microscopy Of Metals

Electron Microscopy and Analysis

R.C.Gifkins

P.J Goodhew

J. Humphreys

R Beanland

Sir Issac

Pitman

And Sons

Taylor

and

Francis

1970

2001

44




Material Characterization




5. Credits: 5th

Semester:

Autumn Spring

6. Objective:

To familiarize with the preparation of metallographic specimens and to study macro and

microstructures of different metal specimens.


S.

No:

Experiments

1.

2.

3.

4.

5.

6.

Detailed study of a Metallurgical Microscope.

Preparation of a standard specimen for microscopic examination.

Electro-polishing of a given specimen.

Microstructure studies of the following:

* Hypo- eutectoid, eutectoid and Hyper-eutectoid Steels.

* Various types of cast irons.

* Cu, Al, and their alloys.

* HSS, Tool Steel, Stainless Steel, etc.

To determine the average grain size by linear intercept method.

Study of Twining in Pb-Sn alloys under a Metallurgical microscope.

- - - -

- - - -

0 1

45



1. Subject Code: MME-504 Course Title: Corrosion and Surface Engineering




5. Credits: 5th

Semester:

Autumn Spring

6. Objective:

To familiarize with the basic knowledge of corrosion behavior of materials and their

protection methods.


S.No Particulars

Contact

Hours

1.

2.

3.

4.

Corrosion principles: Electrochemical aspects, Importance and cost of

corrosion. Computation of corrosion rates, Thermodynamics of

corrosion, Passivation, Mixed potential theory of corrosion and its

application.

Different forms of corrosion and their control: Uniform Corrosion,

Selective Corrosion Including Pitting Corrosion, Crevice Corrosion,

Intergranular Corrosion, Filiform Corrosion, Stress Corrosion

Cracking, Corrosion Fatigue, Fretting Corrosion, Cavitation

Corrosion, Leaching, Erosion-Corrosion and Microbial Corrosion.

Principle behind protection of materials against corrosion: Cathodic

and anodic protection, inhibitors, coatings and design. Decorative

coatings by electroplating.

Corrosion Testing Methods. IS specification.

High Temperature corrosion & oxidation of Metals and Alloys: Rate

Laws, Kinetics and Mechanics. Wagner’s parabolic law of

Oxidation. Hot Corrosion, Corrosion in Mixed Gaseous Environment.

High temperature materials.

12

12

08

10

Total 42

- - - -

- - - - - - - - - -

0 3

46

8. Suggested Books:

S.

No.


Publication

1.

2.

3.

4.

5.

6.

7.

8.

Corrosion Engineering

Corrosion–For science and

engineering

Metallic corrosion and prevention

Corrosion and corrosion control –

An introduction to corrosion science

and engineering

ASM hand book – Vol 13:

Corrosion

Principles and prevention of

corrosion

Corrosion and corrosion protection

handbook

An introduction to Electro-

metallurgy

Greene, N.D.,

M.G. Fontana,

Kenneth R

Trethewey and

John Chamberlain

Raj Narayan

Herbert H. Uhlig

and R. Winston

Revie

Denny A. Jones

Philip A.

Schweitzer

Sharan & Narain

Tata McGraw

Hill

Longman Inc

Oxford

Publications,

John Wiley

& Sons

ASM

International

Prentice Hall

Inc.

ASM

Standard

Publisher

2005

1996

1988

1985

2001

1996

1983

1999

47



1. Subject Code: MME-504 P Course Title: Laboratory Practice in Corrosion

and Surface Engineering




5. Credits: 5th

Semester:

Autumn Spring

6. Objective:

To gain knowledge about the methods used to evaluate the corrosion characteristics of

different materials under different conditions.


S.No: Experiments

1.

2.

3.

4.

5.

6.

7.

8.

9.

10.

To study the microstructure of a corroded sample.

To understand the working principle of pH meter.

To study the galvanic corrosion of metals by weight loss method.

To study the effect of cathodic protection on given couple of metallic

samples.

To study the influence of various inhibitors on corrosion protection.

To understand the working principle of potentiostat. Aqueous

corrosion.

To identify the electrochemical corrosion parameters of some

metals/alloys.

To study the High temperature oxidation of metals/alloys.

Electroplating Cu, Ni, Cr, etc.

Anodizing of aluminum.

- - - -

- - - -

0 1

48


NAME OF DEPARTMENT : Metallurgical & Materials Engineering 1. Subject Code: MME-505 Course Title: Extractive Metallurgy of Iron

and Production of Ferro- Alloys




5. Credits: 5th

Semester:

Autumn Spring

6. Objective:

To provide knowledge about iron making from iron ore through blast furnace route and to

understand the alternative methods of iron production.


S. No. Particulars

Contact

Hours

1.

2.

3.

Iron - Raw materials and their preparation. Blast furnace stoves and

blast preheating. Blast furnace design, construction and

instrumentation. . Thermal and material balance sheets.

Burden calculations. B. F. slags and their behavior slag-metal

reactions. Modifications, high top pressure, humidification.

Oxygen-enriched blasts, solid, liquid and gaseous injection through

hot blast, alternative methods of iron production. Sintering and

palletizing.

Introduction to ferro alloys, Production of ferro-alloys (Fe-Mn, Fe-

Si, Fe-Mo,). Alternative methods of iron production such as: DRI,

COREX, ROTARY KILN, SHAFT AND STRATEGIC-UDY

PROCESSES.

14

18

10

Total 42

- - - -

- - - - - - - - - -

0 4

49

8. Suggested Books:


Publications

1.

2.

3.

4.

5.

6.

7.

Production of Iron and Steel Vol.I

Iron Making

Iron Making

Sponge Iron Production by Direct

Reduction of Iron Oxide

High Metal Production by Smelting

Reduction of Iron Oxide

Physical chemistry of Iron & Steel

making

Physical chemistry of Iron & Steel

making

G.R.

Bashforth

A.K.

Biswas

Tupkary

R. H

Amit

Chatterjee

Amit

Chatterjee

Ward R.G.

Bodsworth

C.

Chapman &

Hall

SBA

Publications

Khanna

Publishers,

New Delhi

PHI

PHI

ELBS

ELBS/Edward

Arnold Pub.

1965

2005

2008

2010

2010

1999

1988

50



1. Subject Code: MME-601 Course Title: Powder Metallurgy




5. Credits: 6th

Semester:

Autumn Spring

6. Objective :

To impart knowledge on principles of metal powder processing and methods to make metal

powder based engineering products.


S.

No Particulars

Contact

Hours

1.

2.

3.

4.

5.

6.

7.

8.

The importance of Powder Metallurgy.

Various methods of producing metal powders. Characteristics of

metal powders and their correlation with the various methods of

production. Hazards in metals powder production.

Testing and classification of powders. Treatment of metal powders

prior to compacting - Mixing and conditioning of metal powders.

Compacting of cold and hot pressing and their limitations.

Design of dies. Rolling, slip casting, forging and extrusion of metal

powders. Explosive compaction. Factors influencing the properties of

compacts.

Sintering - its significance in powder metallurgy, sintering

environments, importance of controlled atmosphere for sintering.

Sintering equipment and their classification. Factors influencing

sintering of metal powders. Techniques of activated sintering. Post

sintering operations and the properties of sintered products/ compacts.

Various powder products including dense, porous, hard, refractory,

magnetic, dispersion strengthened and composite materials.

Products for electrical contacts, friction parts etc.

01

08

05

05

04

10

06

03

Total 42

- - - -

- - - - - - - - - -

0 3

51

8. Suggested Books:

S.No. Name of the Books Author(s) Publisher Year of

Publications

1.

2.

3.

4.

5.

6.

7.

8.

Powder Metallurgy: Science

Technology and Applications

Powder Metallurgy

Powder Metallurgy of Iron & Steel

Metals Handbook, Vol.7, Powder

Metallurgy

Powder Metallurgy Opportunities for

Engineering Industries

Powder Metallurgy Applications,

Advantages and Limitations

Mechanical Alloying

Powder Metallurgy

Angelo P C &

Subramanian

Sinha A K

German, R M

Ramakrishnan

Erhard Klar

Soni P R

Sands and

Shakespeare

PHI

Dhanpat Rai

& Sons

John Wiley

& Sons, NY

Metals Park,

Ohio, USA

Oxford and

IBH

Publishing

Co Pvt Ld

American

Society for

Metals

Cambridge

International

George

Newes Ltd,

London

2008

1982

1998

1990

1987

1983

2002

1966

52



1. Subject Code: MME-602 Course Title: Electronic, Magnetic and

Dielectric Materials




5. Credits: 6th

Semester:

Autumn Spring

6. Objective:

To familiarize with various electronic, magnetic and dielectric materials and to study their

varied applications.


S.No Particulars

Contact

Hours

1.

2.

3.

4.

Free electron theory and its limitations, Metallic conduction and

factors affecting conductivity, semi-conductor materials and

techniques of processing semi-conductors. Oxidation, diffusion, ion

and electron beam, ion implantation, plasma technology etc. MOS,

MNOS and SOS etc. technologies, Gas I.C. technologies etc. Doping,

Hall effects, p-n junctions etc. Ionic and super-ionic conduction,

single crystal growth.

Magnetic materials; dia, para, ferro, ferri, anti-ferro, ceramic

magnetic materials. Magnetism, theory of magnetism, Hard and soft

Magnetic materials, their classification and applications, technology

of their production, precipitation hardening magnetic alloys,

permanent magnetic materials.

Di-electric materials, Piezo,and ferro electric materials, doping and

electric breakdowns, ferrites, transformer and switching materials,

Optical materials, lasers etc.

General discussion on the performance of materials in the

development and growth of :

- Electrical , electronics and telecommunication equipment/

system,

- Energy sector, and

- Bio-Medical

15

10

07

10

Total 42

- - - -

- - - - - -

0

- - - -

0 4

53

8. Suggested Books:

S.

No.


Publications

1.

2.

3.

4.

5.

6.

Introduction to Solid State Physics

Physical Metallurgy Principles

Materials Science & Engineering

Theoretical Structural Metallurgy

Structure and properties of materials,

Vol. IV

Semiconductors

Kittel

Reed Hill

Raghvan,

V

Cottrell

Wulff

Series

Smith,

R.A

Wiley

Affliliated

East West

Press Pvt

Ltd.

PHI

Arnold

John Wiley

Cambridge

University

Press

2004

2006

2008

1962

1966

1986

54


NAME OF DEPARTMENT : Metallurgical & Materials Engineering 1. Subject Code: MME-603 Course Title: Physical Metallurgy




5. Credits: 6th

Semester:

Autumn Spring

6. Objective:

To provide the knowledge of structure property correlation regarding different metals and

alloys.


S.No. Particulars

Contact

Hours

1.

2.

Brief review of Structure of metals and imperfections and their

influence on the properties of materials. Classification and their

influence on the properties of materials. Solid solutions - their

characteristics and governing factors Classification - primary,

secondary solid solutions and intermetallic compounds.

Solidification and nucleation, thermal curves, phase rule and

equilibrium diagrams and Iron carbon equilibrium diagram and

the crical phenomena. Binary and ternary systems. Eutectic,

eutectoid, peritectic, peritectoid, monotectic, and precipitation

reactions. Binary system - Cu-Ni, Cu-Zn, Cu-Be, Cu-Al, Al-Zn,

Al-Si, Al-Mg, Pb-Sn etc. Isothermal transformation of Fe-C

systems. Ternary alloys -white metal, Ni-Silvers fusible alloys.

Diffusion in solid state and its mechanism. Laws of diffusion.

Kirkendal effect, Factors governing diffusion. Specifications of

ferrous and non-ferrous alloys.

16

26

Total 42

- - - -

- - - - - - - - - -

0 4

55

8. Suggested Books:


Publications

1.

2.

3.

4.

5.

6.

7.

8.

9.

Principles of Physical Metallurgy

Engineering Physical Metallurgy

Introduction to Physical Metallurgy

Physical Chemistry Of Metals

A Textbook on Physical Metallurgy

Cast Iron Technology

Physical Metallurgy- Principles And

Practice

Material Science And Engineering

Physical Metallurgy

Reed Hill

Lakhtin

Avner

Darken &

Gurry

A K Mitra

Tiwan

V.Raghavan

W D

Callister

Hansen

Peter

Affiliated

E-W Press

Pvt.Ltd.

MIR

Publishers

Tata Mc

Graw Hill

CBS

CBS

CBS

Prentice

Hall Of

India

John

Wiley And

Sons

Cambridge

University

Press

2008

1998

2008

2002

2005

2009

2007

2000

1987

56



1. Subject Code: MME-603P Course Title: Laboratory Practice in Physical

Metallurgy




5. Credits: 6th

Semester:

Autumn Spring

6. Objective:

To study the microstructures and to familiarize with the measurement of micro-hardness of

different materials.


S. No. Experiments

1.

2.

3.

4.

5.

Study BCC, FCC, HCP crystal models (Computer aided studies)

Study of Burgers vector in edge and screw dislocations.

Measurement of Micro-hardness on the surface of a steel specimen.

Stereographic projections - construction of Wulff’s net.

Microstructure study of various standard samples of steel, non-ferrous alloys (binary

and ternary systems), and cast irons.

- - - -

- - - -

0 1

57



1. Subject Code: MME-604 Course Title: Mechanical Behaviour of Materials




5. Credits: 6th

Semester:

Autumn Spring

6. Objective:

To develop basic understanding of the response of engineering materials to mechanical

loading.


S. No. Particulars

Contact

Hours

1.

2.

3.

4.

5.

6.

7.

08.

Introduction to elasticity, stress-strain curves, toughness and

stiffness.

Yield phenomena, Slip-formation of slip line, slip bands, cross slip,

twinning.

Strain hardening, theories, stress curves for single and poly crystals,

effect of grain size, temperature, speed, Bauschinger’s effect, texture

and preferred orientation.

Effect of solutes and precipitates on yield stress and hardening.

Influence of defects on the mechanical properties. Recovery,

recrystallization and grain growth.

Fracture -theory, classification and strength. Ductile to brittle

fracture.

Testing of materials, principles and its significance, measurement of

load, length and deformation. Tests -static, tension and compression,

static shear and bending, hardness and impact.

Fatigue and creep

03

03

06

02

03

05

10

10

Total 42

- - - -

- - - - - - - - - -

0 4

58

8. Suggested Books:


Publications

1.

2.

3.

4.

5.


Physical Metallurgy

Introduction to Dislocations

Mechanical Behavior Of Materials

Mechanical Behavior Of Materials

Dieter G E

Reedhill

D. Hull &

D.J. Bacon

T.H.

Courtney

M.A.

Meyers & K

K Chawla

Mc Graw

Hill

Affiliated

E-W Press

Pvt.Ltd.

Butterworth

Heinemann

McGraw

Hills

Prentice

Hall

1988

2008

2001

1990

1999

59




Mechanical Behaviour of Materials




5. Credits: 6th

Semester:

Autumn Spring

6. Objective:

To gain knowledge about the working of different material testing equipments, and principles

of testing etc.


S. No. Experiments

1.

2.

3.

4.

5.

6.

Tensile test - preparation of a steel specimen and its testing.

Measurement of Brinells Hardness of some alloys/steel specimens.

Testing of a given sample for:

a. Rockwell Hardness

b. Vickers Hardness.

Determination of the impact strength of a given sample (L.C.Steel, M.C. Steel, H.C.Steel

and C.Iron) by Izod and Charpy method.

Cupping Test of a given sheet metal.

Study of the various types of fractures occurring in different materials.

- - - -

- - - -

0 1

60


NAME OF DEPARTMENT : Metallurgical & Materials Engineering 1. Subject Code: MME-605 Course Title: Joining of Materials




5. Credits: 6th

Semester:

Autumn Spring

6. Objective:

To familiarize with the materials joining processes, principles and the equipments involved

therein.


S. No. Particulars

Contact

Hours

1.

2.

3.

4.

5.

6.

Principles and classification of joining methods. Some important

commercial applications of brazing and soldering.

Conventional and special/recent welding practices including

submerged, Laser, Plasma, MIG, TIG, Electron beam welding, solid-

state welding processes, etc.

Welding equipments, Structure of welds and fusion zones.

Transformations in parent metal, design of weldments, slag-metal

equilibria, gas pick up by welds and its influence. Weld cracking and

its prevention. Preheating of base metals. Preheating temperature etc.

Heat treatment of welds. Testing and quality control of welds-Macro

and micro examinations etc.

Metallurgical aspects of welding. Weld defects and testing. Joining of

metals and non metallic materials (Adhesive joining).

Weldability of carbon, stainless steel and other alloy steels, cast irons,

Cu, Al, Ti and their alloys, etc. ISI and other specifications.

05

05

03

15

10

04

Total 42

- - - -

- - - - - - - - - -

0 3

61

8. Suggested Books:


Publications

1.

2.

3.

4.

5.

6.

Modern Welding Technology

8.

Manufacturing Engineering And

Technology

Welding Engineering And Technology

Welding Technology

Welding – Principles And Application

Principles Of Welding

Howard B

Cary, Helzar

S.

Kalpakjian

R.S. Steven

R.S. Parmar

Gower A.

Kennedy

Larry Jeffus

Robert W

Messler

Pearson

Prentice

Hall

Prentice

Hall

Khanna

Publishers

Macmillan

Publishing

Company

Delmar

Thomson

Learning

John

Wiley

Sons

2005

2001

2002

1974

1999

1999

62



1. Subject Code: MME-605P Course Title: Laboratory Practice in Joining of

Materials




5. Credits: 6th

Semester:

Autumn Spring

6. Objective:

To gain knowledge about the various joining methods and the working of equipments

involved.


S. No. Experiments

1.

2.

3.

4.

5.

6.

7.

8.

9.

Preparation and joining of two surfaces by soldering and brazing.

Welding of cast irons, Aluminum, Copper and their alloys.

3.

Arc Welding of steel parts/welding to fill a hole in a steel trough.

Gas welding of a given sample.

Macro and Micro- examination of a welded joint.

6.

Determination of the strength properties of a welded joint and weld defects.

7.

Heat-treatment of a weld.

8.

Welding by other modern techniques for which facilities may be available.

Welding of dissimilar metals i.e. Steel, cast iron, Stainless Steel, Mild steel, etc.

- - - -

02

002

M-I - -

5 - -

0

0 1

63



1. Subject Code: MME-606 Course Title: Composites




5. Credits: 6th

Semester:

Autumn Spring

6. Objective:

To impart basic knowledge about the preparation, characterization, and applications of

composite materials.


S.No Particulars

Contact

Hours

1.

2.

3.

4.

5.

6.

7.

8.

An introduction to composites.

Theoretical and actual strength of solids. Cleavage and shear

strength, strength of bulk metals and fibres, etc.

Strengthening Mechanisms in composites. Fibre composites, various

types of fibres elastic fibres. Elastically and plastically deformable

matrix.

Effect of fibre orientation on composite strength. Fracture of fibres/

matrix/ composites.

Dynamic properties of composite materials - fatigue, creep, high

temperature properties, etc.

Production of some commercially important composite materials

(Resin matrix, ceramic matrix and metal matrix, reinforced plastics,

glass fibre and carbon fibre). Directional solidification of eutectic, etc.

Joining of composites.

Applications of composite materials; civil construction of

structure/panels, aerospace industries, automobiles and other surface

transport industries, sports components etc.

02

06

06

05

06

06

04

07

Total 42

- - - -

- - - - - - - - - -

0 4

64

8. Suggested Books:

S.

No.


Publication

1.

2.

3.

4.

5.

6.

Composite Materials

Composite Materials:

Engineering & Science

Ceramic Matrix Composites

Modern Composite Material

Composite Materials: Science

and Applications

“Composites” Metals Hand

Book Vol.21, 9th

Edition

Chawla K K,

Mathews F L and

Rawlings R D

Chawla K K

Broutman L J,

and Krock

Deborah Chung D

Springer Verlag,

New York

Chapman &

Hall , London

Chapman and

Hall, UK

Addison

Wesley

Publishing

Company

Springer

International,

USA

ASM

1998

1994

1993

1967

2004

1989

65



1. Subject Code: MME-607 Course Title: Tour, Training and Professional

Interview




5. Credits: 6th

Semester:

Autumn Spring

6. Objective:

To gain practical knowledge about the actual working of the industries, processes involved

and the functioning of the industrial equipments etc.


S.No Particulars

1.

2.

3.

4.

Each student will be required to undertake practical training during the winter

vacations for about 10-16 weeks in metallurgical industries. Each student will

submit a training report in the department and give details of the jobs he was

assigned during the practical training at the industry where he has taken such

practical training. Separate report for the training taken at different industries will

be required to be submitted by each candidate.

The students will also be required to go for a long industrial/educational tour to

visit various industries and educational Organizations of Metallurgical concern.

Each student will submit a tour report on completion of the tours.

The tour and training report as submitted by each student will be assessed by the

staff members and evaluated for sessional awards.

A viva-voce examination will be conducted by an External Examiner for

assessment of Tour and Training undertaken by each student and for his/her

professional achievements, Group discussing during the 7th

and 8th

semester

course work.

- - - -

- - - - - -

0 - - - -

0 2

66


NAME OF DEPARTMENT : Metallurgical & Materials Engineering 1. Subject Code: HSS-701 Course Title: Industrial Economics &

Management




5. Credits: 7th

Semester:

Autumn Spring

6. Objective:

To gain knowledge about the concepts involved in industrial economics and management.


S. No. Particulars

Contact

Hours 1.

2.

3.

4.

5.

6.

INDUSTRY: Introduction to industry, Industrialization, Benefits of

industrialization. Economics and social effects of industrialization.

MANAGEMENT: Meaning of management, functions and principles of

management, industrial change and development.

MANAGEMENT OBJECTIVES: Defining management objectives, Testing

of objectives, Primary, secondary and social objectives of management.

PERSONNEL MANAGEMENT: Importance of personnel management.

Main functions of personnel department. Selection, training and

placement of manpower resources.

ECONOMIC SCIENCE: Division of economics and development of

economic life

CONSUMPTION: Nature of human wants and their satisfaction - utility,

law of diminishing marginal utility, Law of demand and supply,

elasticity of demand.

PRICE DETERMINATION: Concept of markets, - competent and monopoly

markets - price and output determination under perfect competition and

monopoly.

PRODUCTION: Meaning of production, production function, laws of

production.

08

07

09

06

07

05

Total 42

- - - -

- - - - - - - - - -

0 3

67

8. Suggested Books:

S. No. Name of the Books/Publisher Author(s) Publisher Year of

Publications

1.

2.

3.

4.

Elementary Economic theory

Indian Economics

Introduction to Economics

Principles of Management

K.K.

Dewett and

JD. Verma

M.K.K. Dewett

&

J.D.Verma

M.L. Seth

George

Terry

Premium Pub.

Co.

S. Chand

L.N. Agarwal

R.D. Irwin

1964

1971

1964

1977

68



1. Subject Code: MME-702 Course Title: Steel Technology




5. Credits: 7th

Semester:

Autumn Spring

6. Objective:

To understand the basic principles of steel making


S.

No Particulars

Contact

Hours

1.

2.

3.

4.

5.

Brief history and earlier methods of steel making. Mixers and their

merits. Desiliconization and desulphurization of B.F iron.

Steel making by Bessemer and side blown converters O.H and

Duplex/Triplex methods, Electric-Arc and Induction processes. Basic

oxygen processes -L.D KALDO, ROTOR, LDAC, and top and

bottom blown practices.

Physico-Chemical principles of each of the above practices.

Inclusions in steel. Deoxidation and vacuum treatment of steels.

Electroslag refining. Ingot mould and base plate preparation for

casting. Steel casting practice. Ingot defects and their control.

Continuous casting practice of steel and its merits. Principles and

production of alloy steels - HSLA, Tool and die, stainless, spring,

magnetic and silicon steels etc.

Recent trends in plain and alloy steel technology. Instrumentation in

steel works. Indian Steel plants and practices.

06

10

05

15

06

Total 42

- - - -

- - - - - -

0 - - - -

0 4

69

8. Suggested Books:

S.No. Name of the Books Author(s) Publisher Year of

Publications

1.

2.

3.

4.

5.

6.

7.

Iron Making and Steel Making –

Theory and practice

Introduction to Modern Steel

Making

The Making, Shaping and Treating

of Steel

Manufacture of Iron and Steel, Vol

2

Introduction to Steel making

Physical Chemistry of Iron and

Steel Making

Physical Chemistry of Iron and

Steel Making

Ahindra Ghosh

and Amit

chatterjee,

Tupkary,R.H.

Richard J

Fruchal

Bashforth, GR

R.H.Tupkari

R.G.Ward

C.Bodswarth

PHI

Khanna

Publications,

New Delhi

AISE Steel

Foundation

Chapman &

Hall, London

Khanna

Publishers

Edward

Arnold

Publications

Edward

Arnold

Publications

2008

1994

1998

1965

2004

1999

1988

70



1. Subject Code: MME-703 Course Title: Phase Transformation and

Heat Treatment of Materials




5. Credits: 7th


6. Objective:

To develop understanding of phase transformations in metals and alloys and to give insight

into the microstructural changes occurring due to different heat treatments.


S.

No Particulars

Contact

Hours

1.

2.

3.

4.

5.

6.

7.

Importance of heat treatment, different types of heat treatment

processes and their application.

Surface hardening treatments.

Alloying elements - their effects on Fe-C system.

Heat treatment -various processes and their applications.

Harden-ability - its significance and factors affecting harden-ability.

Case hardening - various processes and their applications. Associated

phase transformations.

Heat treatment of plain carbon and alloy steels, Non-ferrous alloys

(Al, Cu, Ni and Co base alloys, bearing alloys, etc.). Plain and alloy

cast irons and their heat treatment.

Phase transformations, classification, mechanics, thermodynamics,

and kinetics of solid state transformations.

04

02

06

08

08

10

04

Total 42

- - - -

- - - - - - - - - -

0 4

71

8. Suggested Books:

S.

No.


Publication

1.

2.

3.

4.

5.

6.

7.

8.

Principles of Physical Metallurgy

Heat Treatment Principles and

Techniques

Handbook of Heat Treatment of

Steels

Heat Treatment of Metals

Metals Handbook Vol.4

Steel and its Heat Treatment

Theory of Heat Treatment of Metals

Phase transformations in metals and

alloys

Lakhtin

Rajan and

Sharma

Prabhudev, K

H.

Vijendra

Singh

American

Society for

Metals

Karl-Erik

Thelning

Novikov I

Porter &

Easterling

MIR

Publications

Prentice Hall of

India (P) Ltd,

Tata - McGraw

Hill Publishing

Co.

Standard

Publishers

Distributors,

ASM Metals

Parks, Ohio,

USA

Butterworths

London

MIR

Publishers,

Moscow

Chapman and

Hall, London

1988

2004

2000

1998

2001

1984

1978

1997

72



1. Subject Code: MME-703 P ; Course Title: Laboratory Practice in Phase Transformation

and Heat Treatment of Materials




5. Credits: 7th

Semester:

Autumn Spring

6. Objective:

To gain practical knowledge about the effects of various heat treatment on the structure and

properties of materials.


S.No: Experiments

1.

2.

3.

4.

5.

6.

Jominy-end-Quench test for determination of harden ability

Effect of the heating time and temperature, and cooling rate on the

structure & properties of alloys.

Study of the isothermal transformations in Fe-C systems

Annealing and normalizing of alloys.

Case carburizing, nitriding, cyaniding, & flame hardening

Heat treatment of tool steels.

- - - -

- - - -

0 1

73



1. Subject Code: MME-704 Course Title: Mechanical Working of

Materials




5. Credits: 7th

Semester:

Autumn Spring

6. Objective:

To familiarize with the fundamentals involved in understanding the response of engineering

materials to mechanical loading and to understand basics of different metal working processes,

equipments involved etc.


S.

No Particulars

Contact

Hours

1.

2.

3.

4.

5.

Metal working: Classification of metal working(forming processes, mechanics of

metal working, flow stress determination, temperature in metal

working, effect of strain rates, metallurgical structure. Friction and

lubrication. Workability, residual stresses.

Rolling:, classification of rolling processes, rolling mills, hot roling

and cold rolling, rolling of bars and shapes, defects in roled products.

Extrusion:- classification of extrusion processes, extrusion

equipment, hot extrusion and cold extrusion, defect in extruded

products.

Forging:- classification of forging processes, forging equipments,

open die and closed die forging, forging die materials, forging

defects.

Drawing of rods, wires and tubes. Rod wire and tube drawing

processes, drawing equipments, defects in rods wires and tubes. High

velocity forming, press forming of metals - principles, processes and

equipments. Analysis of forces operative during various metal

10

04

04

03

06

- - - -

- - - - - - - - - -

0 4

74

6.

7.

8.

working processes.

Sheet Metal forming:-

Forming methods; shearing, blanking, bending, stretch forming, deep

drawing, super plastic forming, defects in formed parts.

Non-conventional Forming Methods:-

Explosive Forming, Magnetic Forming, Electric discharge forming,

Laser Forming.

Polymer Working Processes:-

Extrusion, Molding, Thermoforming Principle, processes and

Equipment employed

04

05

06

Total 42

8. Suggested Books:

S.

No.


Publication

1.

2.

3.

4.

5.


Metals Handbook, Vol.14,

Forming and Forging

Handbook of Metal Forming

Metal Forming Fundamentals and

Applications

Mechanical Treatment of

Steel,Vol.4

Dieter

Kurt Lange

Tylan Altan, Soo

Oh, Harold Gegel

Bashforth G R

Mc Graw Hill

Metals Park,

Ohio, USA

Society of

Manufacturing

Engineers,

Michigan

ASM, Metals

Park, Ohio,

USA

Chapman &

Hall

1988

2001

1988

1983

1968

75



1. Subject Code: MME-704 P Course Title: Laboratory Practice in Mechanical

Working of Materials




5. Credits: 7th

Semester:

Autumn Spring

6. Objective:

To familiarize the students with the construction and working of different metal working

equipments and to perform different tests.


S.

No:

Experiments

1.

2.

3.

4.

5.

6.

To perform fatigue testing and drawing of S-N Curves

To perform the Stress - Rupture Test.

Study of the construction and working of a creep testing machine.

To perform wire drawing operation.

To perform rolling of materials.

To perform the forging operation.

- - - -

- - - -

5

0 1

76



1. Subject Code: MTH-703E Course Title: Operation Research

(Elective-I)




5. Credits: 7th

Semester:

Autumn Spring

6. Objective:

To familiarize with the fundamentals of operations research and its associated fields.


S.No Particulars

Contact

Hours

1.

2.

3.

4.

5.

Nature and Development of Operations Research

Problem formulation, Linear Programming Problem, Graphical

Method, Simplex Method, Two phase, Simplex Method.

Big M method, Transportation and Assignment Models. Replacement

Models - Simple Problems.

Game Theory: Two person Zero Sum Game. Sequencing Models-

Processing n-jobs through two Machines, Processing n-jobs through

three machines.

Queuing Theory: Single- Channel Poisson Arrivals with Exponential

Service (M/M/I) Model.

05

12

10

09

06

Total 42

- - - -

- - - - - - - - - -

0 4

77

8. Suggested Books:

S.

No.


Publications

1.

2.

3.

4.

Linear programming

Operations Research An Introduction

Theory of Games and Linear

Programming

Operation research

S.I. Gass

Hamidi

A.Taha

S.Vajda

Kanti

Swarup &

P.K.Gupta

Mc-Graw Hill

Pearson

Education

Prentice Hall

John Wiley &

Sons

Sultan Chand

and Sons

1994

2005

1960

2007

78



1. Subject Code: MME-706E Course Title: Ceramic, Glass and Polymer

Technology (Elective-I)




5. Credits: 7th

Semester:

Autumn Spring

6. Objective:

This course aims at providing the fundamental knowledge about ceramics, glasses and

polymers, and to understand their processing, properties and applications.


S.

No Particulars

Contact

Hours

1.

2.

3.

Ceramics:-

Introduction to ceramics, structural characteristics of ceramic

materials, crystal binding, structural imperfections, phase equilibria

and microstructure of ceramic system. High temperature reactions and

their kinetics. Classification and applications of ceramic materials.

Ceramic powders - their preparation, characterization, mixing and

compaction, various methods of forming ceramic products.

Calcination, firing and finishing of ceramic products, glazing and

enameling. White wares, abrasives etc. Testing and quality control of

ceramic products. Synthesis of advanced ceramic materials like PSZ,

Si-N, Si-C, Alumina, etc.

Glass:-

Classification of glass, glass manufacturing and finishing operations.

Factors influencing glass formation. Structure of glass. Mechanical,

electrical, thermal, optical and other important properties of glasses.

Applications of glasses.

Polymers:-

Classification of Polymers, Properties of polymers, Methods of

Polymerization, common polymer resins such as phenolic resins,

Amines resins, epoxy resins, and polyesters.

20

12

10

Total 42

- - - -

- - - - - - - - - -

0 4

79

8. Suggested Books:

S.

No.


Publication

1.

2.

3.

4.

5.

6.

7.

8.

9.

10.

11.

Polymer Science

Fundamentals of Ceramics

Foundations of Materials

Science and Engineering

Introduction to Fine Ceramics

Composite Materials:

Engineering & Science

Ceramic Matrix Composites

Modern Composite Materials

Physical Ceramics for

Engineers

Introduction to Ceramics

Modern Ceramic Engineering-

properties, processing and use

in design.

Introduction to the principles of

ceramic processing.

Gowariker,

Viswnathan,

Jayadev Sreedhar

Michael Barsoum

William F.Smith

Nobuka Ichinose

Mathews and

Rawlings

Chawla K K

Broutman and

Krock

VanVlack K H,

Kingery, W D

David W.

Richerson

Reed J.S

New Age

International Ltd.

McGraw Hill

Publishing Co.

McGraw-Hill

Inc, New York

John Wiley

Chapman &

Hall, London,

Chapman and

Hall, UK

Addison Wesley

Co.

Addison Wesley

Co.

John Wiley,

USA

Marcel Dekker,

Inc.

Wiley

Interscience

2005

1997

1993

1987

1994

1993

1967

1964

1960

1992

1988

80



1. Subject Code: MME-707E Course Title: Metallurgy of Nuclear

Materials (Elective-I)




5. Credits: 7th

Semester:

Autumn Spring

6. Objective:

To provide the knowledge about various nuclear processes and to study the different radio-

active materials.


S.

No Particulars

Contact

Hours

1.

2.

3.

4.

5.

Structure of nucleus.

Radioactivity, Fusion and fission.

Nuclear reactors and the construction, Nuclear power production-

Indian Scenrio.

Nuclear materials -Fuels elements, moderators, coolants, reflectors,

control rods and other structural materials. Cannon materials and their

properties. Production of nuclear grade metals- U, Th, Zr, Nb and Ta

etc processing of spent fuel.

Radiation growth theories, Radiation damage, radiation hazards etc.

Radio isotopes and their uses, Disposal of radioactive wastes,

Occurance and processing of nuclear materials in India.

04

06

08

12

10

Total 40

- - - -

- - - - - -

0 - - - -

0 4

81

8.Suggested Books:

S.

No.


Publications

1.

2.

3.

4.

Materials in Nuclear Applications-

vol.1,

Nuclear Fuel Elements: design

fabrication and performance

Fundamental Aspects of Nuclear

Reactor Fuel Elements

Nuclear Reactor Fuel Elements,

Metallurgy and Fabrication

Gupta C K

Frost

Olander D R

Kaufman A R,

CRC

Pergamon

NTIS

John Wiley

1989

1982

1976

1962

82



1. Subject Code: MME-708E Course Title: Transport Phenomena in

Metallurgical Processes (Elective-I)




5. Credits: 7th

Semester:

Autumn Spring

6. Objective:

To familiarize with the fundamentals of heat, mass and momentum transfer in various

metallurgical processes.


S.

No Particulars

Contact

Hours

1.

2.

3.

Mass transfer processes and Metallurgical Kinetics-Rate controlling

step. Diffusion- Laws of diffusion; steady state one dimensional;

Pseudo-steady state diffusion; unsteady state diffusion. Diffusion in

gases, liquid and solid. Convection and Mass Transfer in Fluids

under Laminar and Turbulent flow. Mass transfer between a fluid and

a solid. Boundary Layer – Mass Transfer Coefficient. Fluid flow

viscosity, Differential mass and momentum balances.

Variables K-influencing Dimensionless groups in Mass Transfer –

Analytical, Solution of Mass Transfer co-relations. Mass

Transformer between two fluids – film and Boundary Layer Theories,

Surface renewed theory of Mass transformer. Theory of reaction

rates. Mass transfer processes, convective mass transfer, concept of

mass transfer coefficient.

Gas-solid and gas liquid interfacial reaction – Adsorption – Slow

surface reactions in high temp. metallurgy. Thermodynamics activity

of absorbed atomic species. Reaction kinetics, Basic definition and

concepts, reaction rate theories, Slag Metal Reaction –

Electrochemical Kinetics at High Temp. Nucleation and growth –

Homogeneous and Heterogeneous Nucleation – Nucleation of CO

08

10

14

- - - -

- - - - - - - - - -

0 4

83

4.

Bubbles in molten iron and in de-oxidation of steel. Diffusivity and

mechanism of diffusion.

Some special topics- Diffusion of gases through porous solid. Role of

Merangoni Effect in Fluid Mass Transfer. Heat Transfer and Reaction

Rates. Heat conduction equations and their applications. Convective

heat transfer and radiative heat transfer.

08

Total 42

8. Suggested Books:

S.

No.


Publication

1.

2.

3.

4.

5.

6.

7.

8.

9.

Basic Fluid Mechanics

Fundamentals of Engineering

Heat and Mass Transfer

Fundamentals of heat and Mass

Transfer

Transport Phenomena

Introduction to Fluid

Mechanics

Mechanics of Fluids

Transport Phenomena

Transport Phenomena in

Metallurgy

Rate Processes in Metallurgy

Kothandaraman

C.P. and

Rudramoorthy, R.

Sachdeva, R C

Kothandaraman C P

Byron Bird R, W E

Shawart

Robert, W Fox

Irving H Shames

Bird R.B, Stewart

E.S and Light foot

Geiger GH and

Poirier DR

Mohanty AK

New Age

International

New Age

International

New Age

International

John-Wiley &

Sons Inc.

John Wiley &

Sons

McGraw Hill,

New York

John Wiley &

Sons

Addison

Wesley

PHI

1998

1996

1997

1994

1994

1992

2002

1973

2000

84



1. Subject Code: MME-708E Course Title: Chaotic dynamical systems and

control (Elective-I)




5. Credits: 7th

Semester:

Autumn Spring

6. Objective:

This course aims at providing the fundamental knowledge about chaotic dynamical systems

and control.


S.

No Particulars

Contact

Hours

1.

2.

3.

4.

5.

6.

7.

8.

Principles of dynamical systems: orbits, fixed and periodic points,

bifurcations, transition to chaos, Feigenbaum’s constant, Sarkovskii’s

theorem, period 3 window; The role of critical orbits: the Schwarzian

derivative, Stability of fixed l points and basin of attraction

Models of controlled systems and controlled goals

Methods of controlling chaos: Feed forward control: piecewise

constant dither control; OGY method: linearization of Poincare’ map;

Delayed feedback-method of time-delayed feedback; Linear and

nonlinear control- Open plus closed loop (OPCL), SG method based

on Lyapunov function; Adaptive Control- direct or indirect

(identification- based) parametric adaptive control;

Discrete time control: low-order examples

Neural networks in the field of chaos control

Generation of chaos: chaotization in multidimensional discrete

systems; dynamics of variation of chemical potentials in

multidimensional system and slow approach to equilibria

Chaotic mixing: mixing of stirred fluids, increasing rate of mixing by

increasing chaoticity

Fractals: iterated function systems

21

21

Total 42

- - - -

- - - - - - - - - -

0 4

85

8. Suggested Books:

S.

No.


Publication

1.

2.

3.

4.

Non-linear dynamics and chaos

An Exploration of Chaos

Introduction to Applied Non-

linear Dynamical Systems and

Chaos

An introduction to Difference

Equations

Steven H, Strogatz

J Argyris, G Faust,

M Hasse

Stephen Wiggins

Saber Elyadi

Westview Press,

USA ; marketed

in India by

Levant Books,

Kolkata

North Holland,

Amsterdam

Springer, NY

Springer, NY

2007

1994

2003

2005

86



1. Subject Code: MME-709 Course Title: Literature Survey of Project Work



4. Relative Weightage: SYNP: PRE:

5. Credits: 7th

Semester:

Autumn Spring

6. Objective:

To carry out the basic work with regard to the literature survey, preparation of design and

fabrication of the experimental set up etc, list of required consumable and non-consumable

items etc.


S.

No Particulars

1.

2.

Each student will undertake a project work, involving complete literature

survey, design and fabrication of some working process models, and /or a

laboratory experimentation, and presentation of results, under the

supervision of a faculty members to be fixed in a meeting of the faculty

members of the department keeping in view the students choice of project

topic, their aptitude, facilities available and the availability of staff.

The project will be assigned before the conclusion of the 6th semester

examination and students will start working on literature survey etc., when

7th semester classes commence. A write-up and a complete list of

consumables and non-consumable items to be needed by each student to

complete the project work will be submitted to the teacher concerned in a

fairly typed form for assessment and for arranging the materials from the

market, if necessary, so that the practical work is started just at the

commencement of the 8th semester classes. Each student will submit a

complete literature survey of the project work assigned to the concerned

supervisor for assessment.

- - - -

- -

555

- -

566

655

555

555

0 2

87



1. Subject Code: MME-710 Course Title: Guided Reading, Group Discussion

and Seminar



4. Relative Weightage: GD: WUP: PRE:

5. Credits: 7th

Semester:

Autumn Spring

6. Objective:

To prepare the students for the group discussions, preparation of talks/seminar etc.


S.No Particulars

1.

2.

A co-curricular activity based on guided reading and seminar talks. This will

involve a detailed study of a topic of interest production in the candidates own

style. Each student will be required to give seminar talks on the subject of

interest. The handouts of the talks will be submitted by the student before the

talk is delivered. These seminar talks will prepare the students for proper

survey of literature, compilation of information so gathered and presentation

of the same to the audience. The handouts submitted by the students will be in

accordance with the standard of technical papers.

The award of sessional will be based upon the preparation and presentation of

seminar talks and performance in the group

- - - -

- - - -

0 - -

0 1

88



1. Subject Code: MME-801 Course Title: Foundry Technology




5. Credits: 8th

Semester:

Autumn Spring

6. Objective:

To familiarize with the fundamentals of foundry technology principles, casting processes,

equipments etc.


S.No Particulars

Contact

Hours

1.

2.

3.

4.

5.

6.

7.

8.

9.

10.

Introduction: Application and advantages of types of foundries.

Moulding sands-classification and testing, core sands. Binding,

parting and facing materials, additives.

Patterns: Classification and design, pattern allowance.

Core making equipment and processes.

Gating & risering.

Cupola & other Melting furnaces. Manufacture of cast iron,

malleable iron, S.G. Iron -Gray cast iron. Classification and

distribution of flake size and shape in gray cast iron.

Melting, alloying, casting of non-ferrous alloys. Steel foundry

practice, moulding and casting. Classification of casting methods and

equipments used.

Solidification processes-Directional solidification etc. Casting

defects.

Cleaning, Inspection, quality control and salvaging of castings.

Quality control and testing of castings.

03

05

05

03

03

06

05

06

03

03

Total 42

- - - -

- - - - - - - - - -

0 4

89

8. Suggested Books:

S.No Name of the Books Author(s) Publisher Year of

Publications

1.

2.

3.

4.

5.

6.

7.

Principles of Metal Casting

Principles of Foundry Technology

Metal Casting : Principles and

Practice

Foundry Engineering

ASM Metals hand Book, Vol 15,

Casting

Foundry Technology

Fundamentals of metal casting

technology

Heine R W., Loper,

C.R. Rosenthal

Jain P.L

Ramana Rao T V.

Srinivasan N K.

Beeley P R.

Mukherjee P.C.,

Tata-McGraw

Hill Publishing

Co Ltd

Tata McGraw

Hill

New Age

International

Publishing

Khanna Tech

Publications

ASM

International

Butterworths,

London

Oxford and IBH

Publishing House

1995

1995

1996

1994

2001

1982

1996

90



1. Subject Code: MME-801 P Course Title: Laboratory Practice in

Foundry Technology

2. Contact Hours: L:0; T: 0; P: 2



5. Credits: 8th

Semester:

Autumn Spring

6. Objective:

To familiarize with the conduct of various tests on the foundry sands, moulds and castings.


S.No: Experiments

1.

2.

3.

4.

AFS Sieve analysis of foundry sands

Sand testing: determination of:

a. Moisture content

b. Clay content

c. Permeability

d. Flowability

e. Hot strength

f. Refractoriness

Mould testing:

Determination of:

a. Green strength

b. Dry strength

c. Collapsibility

d. Hardness

e. Tensile & compression strength

Moulding & casting:

a. Preparation of moulds

b. Melting, degassing, defluxing & grain refinement

c. Making of castings

d. Inspection & Testing

- - - -

- - - -

5 5

0 1

91


NAME OF DEPARTMENT : Metallurgical & Materials Engineering 1. Subject Code: MME-802 Course Title: Failure Analysis




5. Credits: 8th

Semester:

Autumn Spring

6. Objective:

To understand the basic fundamentals responsible for the failure of materials and to identify

the fracture surfaces.


S.No Particulars

Contact

Hours

1.

2.

3.

4.

5.

6.

7.

Engineering aspects of failure and failure analysis.

Fundamental sources of failures.

General practice in failure analysis.

Toughness and fracture – mechanics.

High and low temp. failures. Mechanisms of and the influence of

structural environmental parameters on failure. Identification of

types of failure.

Service failures of cold formed parts, forgings, castings, weldments.

Case studies - failures in power plants, etc.

02

02

06

06

10

10

06

Total 42

- - - -

- - - - - - - - - -

0 5

92

8. Suggested Books:

S.

No.

Name of the Books/ Author(s) Publisher Year of

Publication

1.

2.

3.

4.

5.

6.

7.

Deformation and fracture

mechanics of Engineering

materials

Fundamentals of Fracture

mechanics

Fracture Mechanics

Applications of Fracture

Mechanics for the selection of

Materials

Metallurgy of Failure

Analysis

Analysis of Metallurgical

Failures

Testing of Metallic Materials

Hertz berg R W

Knott. J.F

Evalds H L and RJH

Warnhil

Campbell,

Underwood J H, and

Gerberich W

Das A.K.

Colangelo V.A.

Suryanarayana AVK

John wiley &

sons, New York

Bullerworths

London

Edward Arnold

Ltd, Baltimore,

American

Society for

Metals, Metals

Park Ohio

Tata Mc Graw

Hill

John Wiley

PHI

1983

1973

1984

1982

1992

1985

1979

93



1. Subject Code: MME-803 Course Title: Entrepreneurship Development and

its Scope in Metallurgy




5. Credits: 8th

Semester:

Autumn Spring

6. Objective:

To gain basic knowledge about the procedures and formalities involved in the

setting up of industries, marketing management and other related issues.


S.

No Particulars

Contact

Hours

1.

2.

3.

4.

5.

6.

7.

Entrepreneurship Development: Characteristics of entrepreneurs.

Entrepreneurship - Risks and rewards, Role of society, self

assessment, motivation and human behaviour etc in entrepreneurship

development qualities.

Business exercises. Forms of business organizations and formation of

companies. Procedures and other formalities for setting up of new

Industries, incentives, subsidies and concessions available for

industries.

Various Institutions and Organizations for promotion of industrial

development sources of financial assistance.

Identification of opportunities for setting industries, Techno-

economic feasibility studies, Financial viability, and ratios assessment

for fixed and working capitals, project scheduling.

Marketing management, consumer behavior, demand and supply,

projections, predictions and forecasts.

Industrial laws. Factory wages, and workmen compensation acts.

Preparation of a project Report.

04

08

10

06

06

04

04

Total 42

- - - -

- - - - - - - - - -

0 3

94

8. Suggested Books:

S.

No.


Publication

1.

2.

3.

4.

Entrepreneurship

Entrepreneurship – Successfully

Launching New Ventures

Entrepreneurship in Action

Entrepreneurship– Strategies and

Resources

Robert D Hisrich,

Michael P Peters and

Dean Shepherd

Bruee R Barringer

and Duane Ireland

Pearson Mary Coulter

Marc J Dollinger

Tata

McGraw

Hill

Prentice Hall

Prentice Hall

of India

Pearson

Education

2007

2006

2006

2003

95



1. Subject Code: MME-804E Course Title: Polymer Technology (Elective-II)




5. Credits: 8th

Semester:

Autumn Spring

6. Objective:

To familiarize with the fundamentals of polymers.


S.No Particulars

Contact

Hours

1.

2.

3.

4.

5.

Polymer and their characterization.

Polymer chemistry, polymerization its kinetics and mechanism.

Physical and Mechanical properties of polymerization. Polymer

isotics Reactions and their design. Rheology of polymers.

Physical properties, Testing and applications of polymeric

materials. Polymer processing equipment and unit operations.

Introduction to resins, rubber and plastics, their properties and

applications. Introduction to inorganic and some special type of

polymers

05

05

12

10

10

Total 42

- - - -

- - - - - - - - - -

0 4

96

8. Suggested Books:

S.

No.


Publication

1.

2.

3.

4.

5.

Polymer Science

Foundations of Materials Science

and Engineering

Plastics: Materials and

processing

Polymer Processing

Plastic Materials

Gowariker ,

Viswnathan,

Jayadev Sreedhar

William F. Smith

Brent Strong A

Morton-Jones D.H

Brydson J A

New Age

International

Ltd.

McGraw-Hill

Inc, New York

Prentice-Hall,

New Jersey

Chapman and

Hall, New

York

Butterworths,

London

2005

1997

2000

1989

2004

97



1. Subject Code: MME-805 E Course Title: Metallurgy and Application of

Super Alloys (Elective-II)




5. Credits: 8th

Semester:

Autumn Spring

6. Objective:

To familiarize with various super-alloys and their applications.


S.

No Particulars

Contact

Hours

1.

2.

3.

4.

Historical review, Classification of Super alloys based on Fe, Co and

Ni, specifications, preparation and physical characteristics of super

alloys, Role/effect of alloying elements.

Applications of super alloys. Influence of aggressive environments

such as those involving chlorine and sulfurs.

Structural ceramics, their properties and advantages over conventional

high temperature materials and super alloys.

Structural ceramics based on Oxides (Alumina, Zirconia and Thoria

etc) and Non-Oxides (Carbides, Nitrides, Silicides, etc).

Their synthesis, properties and applications.

12

08

10

10

Total 40

- - - -

- - - - - - - - - -

0 4

98

8. Suggested Books:

S.

No.


Publications

1.

2.

3.

4.

Powder Metallurgy of Super alloys

Modern developments in Powder

Metallurgy Vol. 1 & 5

Super Alloys “A Technical Guide”

Super alloys “ Fundamentals and

applications”

G.H.

Gessinger

E. N.

Aqua , C.

I.

Whitman

Mathew J.

Donachie,

Stephen J.

Donachie

Roger

C.Reed

Butterworths

Monographs

Metal

Powder

Industries

Federation

ASM

International

Cambridge

University

Press

1984

1985

2002

2006

99



1. Subject Code: MME-806 Course Title: Project Work and Project Viva



4. Relative Weightage: INTASM: PR: PRE: VV: EE:

5. Credits: 8th

Semester:

Autumn Spring

6. Objective:

To familiarize the students with the preparation of project proposals, collection of literature,

conduct of experimental work, analysis of data and presentation of results etc.


S.

No Particulars

1.

2.

Each student will undertake a project work, involving complete literature survey,

design and fabrication of some working process models, and /or a laboratory

experimentation, and presentation of results, under the supervision of a faculty

members to be fixed in a meeting of the faculty members of the department

keeping in view the students choice of project topic, their aptitude, facilities

available and the availability of staff.

The project will be assigned before the conclusion of the 6th semester

examination and students will start working on literature survey etc when 7th

semester classes commence. A write-up and a complete list of consumables and

non-consumable items to be needed by each student to complete the project

work will be submitted to the teacher concerned in a fairly typed form for

assessment and for arranging the materials from the market, if necessary, so that

the practical work is started just at the commencement of the 8th semester

classes. Final project report will be submitted by each student after making a

presentation of his results/findings etc before his/her supervisor and other faculty

members. Final assessment of his/her project work will be done on the basis of a

viva-voce examination by an external examiner.

- - - -

- - - - - - - - - -

1 0

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